Cytotoxicity of a conjugate of ricin A-chain and monoclonal anti-allotypic antibody

A conjugate was developed between ricin A-chain and monoclonal antiallotypic antibody specific for L-chains of the rat Ig. Incubation of spleen cells with the conjugate (10(-7) M) resulted in a strong decrease of 1a-positive B-lymphocyte growth. At the same time spleen cells that lacked this antigen were not affected by immunotoxin (IT). Both the isolated antibodies and ricin A-chain did not inhibit cell growth in the same concentrations. IT injection to 10-day-old heterozygous rats (1a/1b) resulted in a partial suppression of Ig production with 1a-allotype. The conjugate was 4.5 times more effective than the isolated antibodies used to form it. The in vivo and in vitro differences in IT cytotoxicity were probably connected with insufficient efficacy of conjugate targeting in vivo.     

Inhibition of ricin A-chain (RTA) catalytic activity by a viral genome-linked protein (VPg)

Ricin is a plant derived protein toxin produced by the castor bean plant (Ricinus communis). The Centers for Disease Control (CDC) classifies ricin as a Category B biological agent. Currently, there is neither an effective vaccine that can be used to protect against ricin exposure nor a therapeutic to reverse the effects once exposed. Here we quantitatively characterize interactions between catalytic ricin A-chain (RTA) and a viral genome-linked protein (VPg) from turnip mosaic virus (TuMV). VPg and its N-terminal truncated variant, VPg_1–110, bind to RTA and abolish ricin's catalytic depurination of 28S rRNA in vitro and in a cell-free rabbit reticulocyte translational system. RTA and VPg bind in a 1 to 1 stoichiometric ratio, and their binding affinity increases ten-fold as temperature elevates (5 °C to 37 °C). RTA-VPg binary complex formation is enthalpically driven and favored by entropy, resulting in an overall favorable energy, ΔG = −136.8 kJ/mol. Molecular modeling supports our experimental observations and predicts a major contribution of electrostatic interactions, suggesting an allosteric mechanism of downregulation of RTA activity through conformational changes in RTA structure, and/or disruption of binding with the ribosomal stalk. Fluorescence anisotropy studies show that heat affects the rate constant and the activation energy for the RTA-VPg complex, Ea = −62.1 kJ/mol. The thermodynamic and kinetic findings presented here are an initial lead study with promising results and provides a rational approach for synthesis of therapeutic peptides that successfully eliminate toxicity of ricin, and other cytotoxic RIPs.     

RNA N-glycosidase activity of ricin A-chain. Mechanism of action of the toxic lectin ricin on eukaryotic ribosomes

The modification reaction of 28 S rRNA in eukaryotic ribosomes by ricin A-chain was characterized. To examine whether ricin A-chain release any bases from 28 S rRNA, rat liver ribosomes were incubated with a catalytic amount of the toxin, and a fraction containing free bases and nucleosides was prepared from the postribosomal fraction of the reaction mixture by means of ion-exchange column chromatography. Thin-layer chromatographic analysis of this fraction revealed a release of 1 mol of adenine from 1 mol of ribosome. When the ribosomes or naked total RNAs were treated with ricin A-chain in the presence of [32P] phosphate, little incorporation of the radioactivity into 28 S rRNA was observed, indicating that the release is not mediated by phosphorolysis. Thus, considering together with the previous result (Endo, Y., Mitsui, K., Motizuki, M., and Tsurugi, K. (1987) J. Biol. Chem. 262, 5908-5912), the results in the present experiments demonstrated that ricin A-chain inactivates the ribosomes by cleaving the N-glycosidic bond of A4324 of 28 S rRNA in a hydrolytic fashion.     

Selection and characterization of ricin toxin A-chain mutations in Saccharomyces cerevisiae.

A DNA sequence encoding the A chain of ricin toxin (RTA) from the castor bean plant, Ricinus communis, was placed under GAL1 promoter control and transformed into Saccharomyces cerevisiae. Induction of expression of RTA was lethal. This lethality was the basis for a selection of mutations in RTA which inactivated the toxin. A number of mutant alleles which encoded cross-reactive material were sequenced. Eight of the first nine mutant RTAs studied showed single-amino-acid changes involving residues located in the proposed active-site cleft.     

Effect of monensin on ricin and fluid phase transport in polarized MDCK cells.

The effect of monensin on endocytosis, transcytosis, recycling and transport to the Golgi apparatus in filter-grown Madin-Darby canine kidney (MDCK) cells was investigated using 125I-labeled ricin as a marker for membrane transport, and horseradish peroxidase (HRP) as a marker for fluid phase transport. Monensin (10 microM) stimulated transcytosis of both markers about 3-fold in the basolateral to apical direction. Transcytosis of HRP in the opposite direction, apical to basolateral, was reduced to approximately 50% of the control by monensin, whereas that of ricin was slightly increased. Recycling of markers endocytosed from the apical surface was reduced in the presence of monensin and there was an increased accumulation of both ricin and HRP in the cells. Transport of ricin to the Golgi apparatus increased to the same extent as the increase in intracellular accumulation. No change in recycling or accumulation was observed with monensin when the markers were added basolaterally, but transport of ricin to the Golgi apparatus increased almost 3-fold. Our results indicate that basolateral to apical transcytosis is increased in the absence of low endosomal pH, and they suggest that apical to basolateral transcytosis of a membrane-bound marker (ricin) is affected by monensin differently from that of a fluid phase marker (HRP).     

Chinese hamster ovary cell variants resistant to monensin, an ionophoric antibiotic. I. Isolation and altered endocytosis of ricin

Chinese hamster ovary (CHO) cell variants resistant to a carboxylic ionophore, monensin, have been isolated. Two monensin-resistant variants (MonR-31 and MonR-32) showed a three- to fourfold higher resistance to monensin than did CHO. These MonR clones also showed fourfold higher resistance to another carboxylic ionophore, nigericin, and twofold higher resistance to valinomycin. They were also slightly more resistant to other unrelated drugs such as adriamycin, colchicine, bleomycin, and chloroquine, and in particular, they showed about threefold higher resistance to ricin, a toxin of Ricinus communis. MonR clones were found to retain a normal level of [125I]ricin binding, but internalization of [125I]ricin into the MonR clones was one-half or less than with CHO. Present data suggest that drug-resistant clones selected in culture may provide a way to isolate cells with altered response to various bioactive molecules.     

Isolation and in vitro expression of the ricin A-chain gene: effect of deletions on biological activity.

The gene encoding the ricin A-chain was isolated and subcloned into an in vitro expression vector downstream from the SP6 promotor. mRNA encoding the A-chain strongly inhibited the translational activity of reticulocyte lysates. The inhibition correlated with glycosylase activity on rRNA, and could be abolished by addition of antibodies specific for ricin. mRNA generated after linearization of the vector at unique restriction sites within the A-chain coding sequence did not inhibit, except after linearization with ScaI. Also mutants lacking the 28 N-terminal amino acids of native A-chain strongly inhibited the lysates. However, in both cases no glycosylase activity could be observed. We also show that the lack of a stop codon in mRNA does not affect the level of expression as assayed here.     

Effects of ammonium and bicarbonate-CO2 on intracellular chloride levels in Aplysia neurons.

The level of intracellular free chloride in Aplysia giant neurons can be made to decline by pretreatment with 50 mM NH4+ solution followed by washing with 10 mM HCO3-/0.4% CO2-containing fluids. This effect can be completely blocked by the anion flux inhibitor, 4-acetamido-4'-isothiocyano-stilbene-2,2'-disulfonic acid (SITS). The net change of free chloride in the cell cannot be explained by changes in the electrochemical gradient of chloride. These results support the hypothesis that at least one mechanism for intracellular pH regulation involves a Cl-/HCO-3 exchange process.     

A conjugate of 5-fluorouridine-poly(L-lysine) and an antibody reactive with human colon carcinoma

The ribose moiety of 5-fluorouridine (FUR) was oxidized with periodate and the product was bound through a poly(L-lysine) bridge to monoclonal antibodies, denoted SF25MAb, reactive with a human colon carcinoma LS180. The antibody was linked via its polysaccharide (previously oxidized with periodate) to the poly(L-lysine)-drug conjugate. The linking of FUR-poly(L-lysine) to the antibody markedly increased the latter's binding to the tumor cells. A relatively lower increase was also observed with conjugates of nonrelated antibodies, such as anti-hepatitis B surface antigen and anti-epidermal growth factor receptor antibodies. The pharmacological activity of the specific conjugate FUR-poly(L-lysine) -SF25MAb was higher than that of the drug-substituted polymer alone. The poly(L-lysine) bridge caused toxic effects in vivo, even though substituted both by FUR and by antibody. Therefore, the additional unreacted lysyl residues were blocked by succinylation. Partial blocking of free amino groups on the conjugate rendered it nontoxic but decreased its cell-binding capacity, though to a level still higher than that of the original unmodified antibody. The pharmacological activity of the specific conjugate after blocking was also reduced and necessitated prolonged incubation periods or higher concentrations. Following periodate oxidation and reduction, FUR was as effective as the clinically preferred compound 5-fluoro-2'-deoxyuridine in vitro and in vivo, against the LS180 colon carcinoma. Experiments in nude mice, with LS180 tumor subcutaneous xenotransplants, showed that FUR-poly(L-lysine)-SF25MAb (blocked by succinylation) was not toxic and was effective in the retardation of tumor growth.(ABSTRACT TRUNCATED AT 250 WORDS)     

Selective elimination of a B cell subset having acceptor site(s) for T cell-replacing factor (TRF) with biotinylated antibody to the acceptor site(s) and avidin-ricin A-chain conjugate

A covalent conjugate of avidin with ricin subunit A-chain (avidin-RA) was prepared by using N-succinimidyl 3-(2-pyridyldithio)propionate as a coupling agent. Selective cytotoxic activity after the combined treatment of spleen cells with biotinylated antibody and avidin-RA was demonstrated by the fact that the responsiveness to LPS was selectively abrogated by pretreatment of the cells with biotinylated rabbit anti-mouse immunoglobulin (MIg) antibody, but not with biotinylated anti-Thy-1.2 antibody. Neither the biotinylated antibody alone nor avidin-RA alone was effective in decreasing the responses to mitogens. Moreover, a high anti-DNP PFC response elicited by DNP-KLH-primed BALB/c mouse spleen cells stimulated in vitro with DNP-KLH was mostly abrogated by the pretreatment of the cells with biotinylated anti-MIg antibody and avidin-RA. Again, neither the biotinylated antibody alone nor avidin-RA alone was effective in decreasing the anti-DNP PFC response. This cell-killing method with the use of biotinylated antibody and avidin-RA was applied and evaluated in experimental systems in which the helper action of T cells on B cells was mediated by T cell-replacing factor (TRF) or was performed by the direct interaction of T cells with B cells (cognate interaction). When DNP-KLH-primed splenic B cells, pretreated with biotinylated F(ab')2 fragment of DCF1 male anti-BALB/c-B IgG antibody against acceptor site(s) for TRF followed by treatment with avidin-RA, were stimulated with DNP-OVA in the presence of monoclonal TRF, the anti-DNP PFC response was significantly decreased, whereas the same treated B cells responded well to stimulation with DNP-PPD in the presence of Tbc-primed T cells (cognate interaction). These results indicate that B cells responsible for the cognate interaction and those having TRF acceptor site(s) belong to a distinct subpopulation of B cells, and that the cytocidal action of the noncovalent conjugate of the antibody and RA formed from the biotinylated antibody and avidin-RA via an avidin-biotin complex has immunologic selectivity, eliminating only the latter subset of B cells recognized by the antibody.     

狂犬病病毒抗体胶体金检测试纸的制备

通过胶体金免疫层析技术建立一种特异、便捷、快速的狂犬病病毒抗体检测方法,对犬等动物免疫狂犬病疫苗后的抗体水平监测提供参考。用醋酸锌沉淀法沉淀狂犬病病毒CVS11,Sepharose 4FF进行层析纯化。用柠檬酸三钠还原法制备的胶体金,标记纯化的狂犬病病毒,喷于试纸的结合释放垫 (金标垫),将SPA (葡萄球菌表面A蛋白) 和纯化的兔抗狂犬病病毒IgG分别喷于试纸的T (检测线) 处和C (对照线) 处,组装试纸条。用制备的试纸条对261份犬血清进行检测,与快速荧光灶抑制试验 (RFFIT) 检测的结果一致;对已知效价的犬狂犬病毒中和抗体 (VNA) 大于0.5 IU,结果为阳性;对狂犬病病毒中和抗体 (VNA) 小于0.5 IU/mL的血清,结果为阴性。制备的狂犬病病毒抗体胶体金检测试纸检测犬血清抗体,具有特异、便捷、快速的特点,能够检测出狂犬病病毒中和抗体大于0.5 IU的血清,适用于临床犬血清抗体水平监测,具有良好的应用前景。     

鲤疱疹病毒Ⅱ型抗体胶体金检测试纸条的制备和分析

【背景】由鲤疱疹病毒Ⅱ型(cyprinid herpesvirus-2, CyHV-2)引起的疱疹病毒性造血坏死病在鲫和金鱼中的暴发给水产养殖业造成了巨大的经济损失。【目的】开发一种快速、现场检测鲫是否感染过CyHV-2和监测鲫CyHV-2IgM抗体水平的胶体金检测试纸条。【方法】将CyHV-2与胶体金结合作为金标抗原、Protein A作为检测线、兔源rORF66多克隆抗体进行划线作为质控线,分析胶体金试纸条最佳制备及组装条件,确定胶体金标记最适pH、金标抗原最适浓度,以及检测线(test line, T线)、质控线(control line, C线)最适划线浓度等。【结果】本研究制备的CyHV-2抗体胶体金试纸条可以使用全血测试,与常见的其他鱼类抗体血清无交叉反应,如草鱼呼肠孤病毒抗体阳性血清、鳜虹彩病毒抗体阳性血清等。试纸条最低限度可以检测到1:100稀释的阳性血清抗体,由试纸条检测线的深浅可以初步判断鱼体中抗体水平。试纸条通过对10条鲫鱼血清样品检测并和金鱼造血器官坏死病毒检测方法(GB/T 36194—2018)进行Kappa分析,Kappa值为0.80,表明二者有较高的符合...     

The specific cytotoxicity of immunoconjugates containing blocked ricin is dependent on the residual binding capacity of blocked ricin: evidence that the membrane binding and A-chain translocation activities of ricin cannot be separated.

Recently we have developed blocked ricin, a derivative of native ricin in which the galactose-binding sites of the B-chain are blocked by covalent modification with affinity ligands. This modification impedes the binding function of the B-chain, while sparing its ability to facilitate the entry of the toxic subunit of ricin, the A-chain, into the cytoplasm. Immunotoxins prepared with blocked ricin approach the cytotoxic potency of native ricin with antibody-dependent specificity. Here we report that the high cytotoxic potency of these immunoconjugates, which is attributed to the preserved translocation function of the ricin B-chain, is dependent on the minimal residual lectin activity of blocked ricin. Our findings support the notion that two functions of ricin, membrane binding and translocation, cannot be separated.     

Isolation of a human-like antibody fragment (scFv) that neutralizes ricin biological activity

Background  

Ricin is a lethal toxin that inhibits protein synthesis. It is easily extracted from a ubiquitously grown plant, Ricinus communis, and thus readily available for use as a bioweapon (BW). Anti-ricin antibodies provide the only known therapeutic against ricin intoxication.     

Colloid titration of heparin using Cat-Floc (polydiallyldimethyl ammonium chloride) as standard polycation.

The positive polymer, Cat-Floc, was used for colloid titration. Colloid titration with Cat-Floc was not affected by pH between 2 and 12. The polymer combined with heparin, forming a flocculant, and the binding was shown to be stoichiometric by gravimetric analysis of heparin-sulfur. Results showed that heparin could be measured quantitatively by colloid titration with Cat-Floc. The applicability of this method for measurements of other biochemical materials was discussed.     

Use of monoclonal antibody and colloidal gold in E.M. localization of von Willebrand factor in megakaryocytes and platelets

The subcellular localization of Factor VIII/von Willebrand protein (VIII R:Ag) is studied with monoclonal antibody and gold immunocytochemical technique. Monoclonal antibody against purified VIII R:Ag is brightly fluorescent on megakaryocytes and platelets. In E.M., gold immunolabeling is performed on thin cell sections of human megakaryocytes and platelets. Different embedding materials are used to preserve the antigenicity : Epon embedded megakaryocytes show a high concentration of VIII R:Ag in alpha-granules using 4F9 monoclonal antibody. In comparison, lowicryl K4M embedded material does not improve the same specificity, only a few platelets granules were stained. This subcellular localization, in full agreement with biochemical results appears visualized for the first time in E.M.